1、Cu supported on polymeric carbon nitride for selective CO2 reduction into CH4: a combined kinetics and thermodynamics investigation,J. MATER. CHEM. A ,7(2019):17014-17021,通讯作者; 2、Tuning the reaction pathway of photocatalytic NO oxidation process to control the secondary pollution on monodisperse Au nanoparticles@ g-C3N4,CHEM. ENG. J.,378(2019):122184-122193,通讯作者; 3、Tailoring Active Sites via Synergy between Graphitic and Pyridinic N for Enhanced Catalytic Efficiency of a Carbocatalyst,ACS APPL. MATER. INTER.,9(2017) 19861-19869.,通讯作者; 4、Electrocatalytic hydrodechlorination of 2, 4-dichlorophenol over palladium nanoparticles: The critical role of hydroxyl group deprotonation[J]. Applied Catalysis A: General, 2019, 583: 117146.,通讯作者; 5、Influence of Calcination Temperatures on the Desulfurization Performance of Fe Supported Activated Carbons Treated by HNO3,IND. ENG. CHEM. RES.,54(2015):1261-1270,通讯作者; 6、Enhancing performance of Co/CeO2, catalyst by Sr doping for catalytic combustion of toluene,APPL. SURF. SCI.,0169-4332, 2018, 445:145-153.,通讯作者; 7、Enhanced CO2 capture on graphene via N, S dual-doping,APPL. SURF. SCI.,0169-4332, 2016, 399: 420-425.,通讯作者; 8、Generation and transformation of ROS on g-C3N4 for efficient photocatalytic NO removal: A combined in situ DRIFTS and DFT investigation,CHINESE J. CATAL., 1695-1703,2018, 39(10): 1695-1703.,通讯作者; 9、Effects of preparation conditions on Mn-based activated carbon catalysts for desulfurization,NEW J CHEM., 1144-0546, 2015, 39(8): 5997-6015.,通讯作者; 10、Dissociation of O2 and Its Reactivity on O/S doped Graphene,RSC ADV., 2046-2069, 2016, 6(9): 7015-7021.,通讯作者; 11、Oxidation of SO2 and NO by epoxy groups on graphene oxides: the role of the hydroxyl group,RSC ADV.,2046-2069, 2015, 5(29): 22802-22810.,通讯作者; 12、Low temperature selective catalytic reduction of NO by C3H6 over CeOx loaded on AC treated by HNO3. Journal of Rare Earths, 2015,33(4):371-376, (SCI),通讯作者; 13、Influence of Calcination Temperatures on the Desulfurization Performance of Fe Supported Activated Carbons Treated by HNO3, Industrial & Engineering Chemistry Research, 2015, 54:1261−1270. (SCI).,通讯作者; |